• Acta Physica Sinica
  • Vol. 69, Issue 18, 188901-1 (2020)
Jin-Long Ma1、2、*, Chang-Feng Du1, Wei Sui1, and Xiang-Yang Xu1
Author Affiliations
  • 1School of Information Science and Engineering, Hebei University of Science and Technology, Shijiazhuang 050018, China
  • 2Science and Technology on Communication Networks Laboratory, Shijiazhuang 050081, China
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    DOI: 10.7498/aps.69.20200181 Cite this Article
    Jin-Long Ma, Chang-Feng Du, Wei Sui, Xiang-Yang Xu. Data traffic capability of double-layer network based on coupling strength[J]. Acta Physica Sinica, 2020, 69(18): 188901-1 Copy Citation Text show less
    Legend of the two-layer networks model
    Fig. 1. Legend of the two-layer networks model
    Used the SPR strategy, the relationship between ordered parameters and packet generation rate under the three coupling modes of AC, DC and RC: (a) BA-BA model; (b) ER-ER model; (c) SF-SF model; (d) BA-ER model; (e) BA-SF model; (f) ER-SF model
    Fig. 2. Used the SPR strategy, the relationship between ordered parameters and packet generation rate under the three coupling modes of AC, DC and RC: (a) BA-BA model; (b) ER-ER model; (c) SF-SF model; (d) BA-ER model; (e) BA-SF model; (f) ER-SF model
    Used the SPR strategy, the relationship between and control parameter under the three coupling modes of AC, DC and RC: (a) BA-BA model; (b) ER-ER model; (c) SF-SF model; (d) BA-ER model; (e) BA-SF model; (f) ER-SF model
    Fig. 3. Used the SPR strategy, the relationship between and control parameter under the three coupling modes of AC, DC and RC: (a) BA-BA model; (b) ER-ER model; (c) SF-SF model; (d) BA-ER model; (e) BA-SF model; (f) ER-SF model
    Used the DWR strategy, the relationship between ordered parameters and generation rate under the three coupling modes of AC, DC and RC: (a) BA-BA model; (b) ER-ER model; (c) SF-SF model; (d) BA-ER model; (e) BA-SF model; (f) ER-SF model
    Fig. 4. Used the DWR strategy, the relationship between ordered parameters and generation rate under the three coupling modes of AC, DC and RC: (a) BA-BA model; (b) ER-ER model; (c) SF-SF model; (d) BA-ER model; (e) BA-SF model; (f) ER-SF model
    Relationship between coupling correlation coefficient and
    Fig. 5. Relationship between coupling correlation coefficient and
    Relationship between and control parameter under different network scales of DWR strategy: (a) RC Coupling; (b) DC Coupling; (c) AC Coupling
    Fig. 6. Relationship between and control parameter under different network scales of DWR strategy: (a) RC Coupling; (b) DC Coupling; (c) AC Coupling
    Relationship between and control parameter under different network scales of DWR strategy: (a) AC Coupling; (b) DC Coupling; (c) RC Coupling
    Fig. 7. Relationship between and control parameter under different network scales of DWR strategy: (a) AC Coupling; (b) DC Coupling; (c) RC Coupling
    Relationship between average information flow and under two routing strategies with different coupling: (a) SPR; (b) DWR
    Fig. 8. Relationship between average information flow and under two routing strategies with different coupling: (a) SPR; (b) DWR
    Relationship between average transmission time and under two routing strategies with different coupling: (a) SPR; (b) DWR
    Fig. 9. Relationship between average transmission time and under two routing strategies with different coupling: (a) SPR; (b) DWR
    Relationship between network size N and under two routing strategies with different coupling: (a) SPR; (b) DWR
    Fig. 10. Relationship between network size N and under two routing strategies with different coupling: (a) SPR; (b) DWR
    Relationship between average path length and network size N under two routing strategies with different coupling: (a) SPR; (b) DWR
    Fig. 11. Relationship between average path length and network size N under two routing strategies with different coupling: (a) SPR; (b) DWR
    Jin-Long Ma, Chang-Feng Du, Wei Sui, Xiang-Yang Xu. Data traffic capability of double-layer network based on coupling strength[J]. Acta Physica Sinica, 2020, 69(18): 188901-1
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